SCIENTIFIC ABSTRACT FOMICHEV, P. - FOMICHEV, V.P.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000413420019-7
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 23, 2000
Sequence Number:
19
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
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CIA-RDP86-00513R000413420019-7.pdf | 3.37 MB |
Body:
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V72
FC14ICHEV, P. , general-mayor; 311-1011OV, B. , inzhener-polcovnik
Study practices in highway maintenance. Tyl i snab. Sa7.
Voor. Sil 21 no./+i?7-80 Ap 161. (MIRA 34:7)
(Military roads)
(Military bridges)
-- - --.1 r.-.
Financim- exploratory drilling. Ploskva Gos. nauchno-teklm. izd-vo neftianoi
.1
i gornotoplivnoi lit-ry, 1952. 110 p. (53-31038)
M9575.R82F6
YOMICHEV,P*M,; BROYDI.I.M., rodaktor; TITSKAYA,B.F., redaktor; POLOSINA.
- A'.`C-,~-te'khnich~ekiv redak-tor
[Financing the drilling of oil and gas wells] YinAnsirovanie bu-
renila neftianylth i gazovykh skvazhin. Koakwa, Gos.nauchno-takhn.
izd-vo neftianoi I gorno-toplivnoi lit-ry, 1953. 181 P.
(MIRA 9:2)
(Petroleum--Well drilling) (Goo, Natural) (Finance)
F0MICffW, P.M.
.. _- ,
I I N
Cbanges In accounting for well construction costs. Aserb.neft.khos.
35 n0.3:31-32 Mr '56. 1 (M14A 0:10)
(Oil well drilling-Prices)
ip
FOMCHHVI P.M.
ions on the financing of drilling operationo. Azerb. neft.
khou. 36 no.1006-48 0 '57. (MMA 1112)
(Oil well drillirg)
11(0) PHASE I.BOOK EXPIDITATION sovI1602
Fomichey, 'Petr Markovich
Finansirovaniye bureniya, n*ftyanykh I gazovykh skyathin (Financing Oil an& Gas
Wel.l Drilling) 2nd ed., rev. and enl. moseav, Gostoptoffiizdat, 1958. 182 p.
2,000 copies printed,
E4.: Isaak Markovich Broyde; Rxi~q. Ed.: N.D. Dabrovins; Tech. Ed.: E.A. Nbkblna.
rulUWE: This book In Intended for engineers,, technicians, economists,, accountants
and bookeepers of drilling organizations and other enterprises of the petroleum
industry,.
COVERAGE: The book describes the financial orgaul ion. of oil and gas sur"Wing
and drilling operations. ProJect specifications and estimate-cost form for
each phase of a drilling operation are given in the Appendixes. No personalities
are mentioned. There are no references.
Card 112-
Pinanclng Oil and Gas Won Drilling
TABLE OF CONTEM:
Foreword
Ch. 1. Planalus and ProJect-estiaste Records
Ch. II. Financing the Drilling Operation
Ch. III. The Working Capital of a Drilling Organization
Ch. IV. Short-term Credit
Ch. V. The Finsue ial Plen
sov/16m
Ch. V1. Analysis of the Financial Activity of a Drilling Organization
Appendixes
AVAILAM: 11brary of Congmse
"Oleas
Card 2/2 5-19-59
3
6
22
57
79
99
115
A6
~T Vo
5
70)(IGHEV" P191, -
Drilling costs. Azerb. neft. khos. 37 no.1:46-48 Ja 158.
(Oil well drMinc-Costs) (KIRA 3-1r6)
JL. Prinimal uchantiye.- SHAPOVALOV, Aleksandr
FOMICHHV, Petr MartoviS
BROTDE, I.M., red.; LATMIRA, Ye.I., vedushchly
red.; POLOSINA, A.S., tekhn.red.
(Business accounting within drilling organizations] Vnutri-
khozinistvannyl raschat v burovykh organizataiiakh. Moskva,
Gos.nauchno-tokhn.izd-vo neftianoi i gorno-toplivnoi lit-ry,
1959. 109 P. (MIRA 12:9)
(Oil well drilling--Accounting)
70MICHEVI.1pl.m.; KTAZIMOT, TA.R.
Prilling coots In Aserbaijan. Axorb. neft. khos. 39 no.6s46-48
ja 16o. (KLHA 13:10)
(Asorbaijan-Oil well ArIlling-Costs)
Plans and estimates of well construction. Wt. khoz. 38 no.12i
1-:5 D! 160. (MM 14:4)
(Oil well drilling)
FOMICHE;V, P.M.
Improving the efficiency of drilling. Azerb. neft. khoz. 39
no.12:0-47 D 260. (MIRA 14:9)
(Oil well drilling)
FOMIC:W-y~-J+.-
Planning.. financing., and accounting problem in oil and gas
drilling industry. 110ft. khoz. 39 no.12:6-10 D 161. (MIRA 14:12)
(Oil well drilling)
FOKCIWI~p
.j
;4har, miullhn& should be ussd to eanoant for U~e co34 cf the
own-itrue'w-ton of wells,, 6 for Msnsslwi. Nal7t, khoa.
4:) no,10-.9 llt~ 165. 041RA 18t6)
SHAPOVALOV. Alekaandr Grigorlyevich; FOMICHEV, Potr Markovich; BROYDE,
I.M., red.
[Calculation and the analysis of the cost of drilling gas
and oil wells] Kaltkulirovanie i analiz sebestoimosti
bureniia neftianykh i gazovyL-h skvazhin. Mosk-vap Nedra,
1965. 119 P. (MIRA 18:10)
FOMICHEVI F.M; RASHEVSYMA, 'r.;. rud.
[Malysis of the production and management of a drilling
organization) Analiz proizvodstvenno-khoziaistvannoi de-
iatellnosti burovol organizatsii. Baku, Azerneshrj 1965.
205 p. (MIRA 18:11)
FOMICOV2 R.A.
Conference of readers at the Ivanovo Peat MacLinery Plant. Torf.
prom. 38 no. 3:37 161. (KM 14:4)
(Ivanovo-Peat machinery-Periodicals)
YOMICHBV S 9 dots., kand.tekhn.nauk
Sirgle pipe hot-water systems with water distributing collec-
tors. Zhil.-kom.khos. 9 no.10:7-9 '59- (MIRA 13:2)
(Hot-water heating) (Heating pipes)
MMICHIDV, S. -- -:,-,. 7
In the economics of production oeotion of the Technical and Economic
Council of Moscow City loonomic Council. Vop. ekon, no.10:139-142
Vop. okon. no.10:139il42 0 159. (MIRA 12.-12)
Mosoov--Industries)
GRIGO'RIYEV, B.A.; FOMICHEV, S.11.
Using albodograph for determining optical coefficients of
engineering materials. Inzh.-fiz.zhur. no.1:34-40 Ja 158.
(MIRA 11:7)
(Materials--Optical propertien)
~h Ev"
Sj1L1APNZKQV, E-G.i ALAKHVERDOV, I.A.; SkGITGV, A.V.; POCIIKkz~., I.A.;
FGMICHEVt T.F,:Sr). State Vet. Inspector; KASK, E.A.; NIKOISKII, R.N.
Kherson oblaut
"On zooveteri.nary servicing of consolidated kolkhoz.11
SO- Vet. 28 (12) 1951, p. 17.
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 OA
~ FOMCW.V, V. A.
NUCLEAR RESEARCH
- .
, DECEASED
(;/ 1964
19614
ZIMNYAYA, I.A.;.Tq~LICHEVI V.A.
S'-tdy of one of the acouatic stimuli causing the perception
of speech intonation in a question. Vop. psikhol. no-5:73-82
S~-O 164 (MIRA 18:1)
1. Moskovskiy gosudarstvennyy pedagogicheskiy institut ino-
strannykh yazykov imeni Morisa Tore2m.
L 06298-67 WT(1) 0
15 377 SOURCE CODE: UR/0000/65/000/000/0266/0279
v, R. G.; Oranskiy, A. M.; Fomichav, V A.
~AUTH
ORG: none
TITLE: Electronic systems for the approximate differentiation of_p~ ~ae repetition rat
:modulated signals
SOURCE: AN BSSR, Institut tokhnicheskoy kibermetiki. Vychislitel,naya tekhnika (Com-
puter engineering). Minsk, Nauka i tekhnika, 1965, 266-279
TOPIC TAGS: digital computer, computer technology, computer input unit, digital dif-
ferential analyzer, differentiating circuit, differentiation
ABSTRACT: The authors describe a system designed to perform approximate differentia-
tion on continuous or quantized pulse trains, the pulse repetition rate being modulat-
ed to represent a controlled process. In the current differentiation schemes, the
pulse train is first converted into a varying dc voltage and then differentiated by
conventional means. This method introduces errors and delays. The authors propose a
new system which can perform the differentiating operations directly on the basis of
the digital data. A pulse train having a repetition frequency representing the first
derivative of the original pulse train is expresaed as
*dF, (i)
FY) k-
di
L 06298-67
ACC NR: AT6015377
where F(t) is the repetition frequency of the pulse train related to the first deriva7
tive of the original pulse train PI(t), k is the dimensional coefficient. This expre
T'
sion can be also written as
F, (I + A F, (1)
F(t) lim
At
For a pulse train, the condition At -P-0 has no physical meaning, hence an approximate'."
differentiation can be used for At+AT, where AT is a small value, satisfying
AT 4K 2~
is the variation period of PIM. Under these conditions
F, (t + A 0 -Fj (1) A F, (t)
F (1)1, HIM 2: ~ dF,
At dt
s mathematical operation can be carried out using the system shown in figure 1.
this system, the differentiation amounts to the generation of a pulse train F(t)
al to the difference of the pulse train PI(t) and a new analogous pulse train PI(t)
,ayed by a finite time interval AT with respect to PI(t). The pulse train to be dif
entiated is fed into block 1 and block 3. Block one gencrates a fixed delay AT.
06298-67
:C NR, AT60iiji7_4
Fig. 1.
7
It can be in the form of a delay line for pulse trains having high repetition rates,
or in the form of a magnetic drum, in which the delay is introduced by the use of two
read heads displaced with respect to each other. The latter arrangement has the ad-
vantage of providing for variable adjustable delay. The output pulses of block 1 are
shaped in block 2 and fed into block three, where coinciding pulses from both pulse
trains are eliminated using a differential anticoincidence circuit. From here the tw,
pulse trains minus coincidence pulses are introduced into block 4 which, in conjunctii
with blocks 5 and 6, has the task of generating a pulse train
FJM - PIM if FIM > FI(t).
No output occurs if
PJM > FIM, or FIM = FIM.
Anticoincidence techniques are used to perform this operation. Block 7 is cathode fol
lower output stage. The authors describe and analyze two practical circuits based on
the proposed approximate differentiation method. The first is suitable for continuous
pulse trains in which the instantaneous pulse repetition frequency is proportional to
the current state of the monitored process; the second is designed -to operate on quan-
Card 3/4
i'ACC
tized pulse trains in which the pulses occur in "parcels" at distinct Intervals. Orig.
art. has: 5 figures.
SUB CODE: 09,12/ SUBM DAM 15Dec65
ACC:
A H; 0 3 3 5,19 SOURCE CODE: UR/0181/66/008/010/2892/2899
ATYLNIOR: Fomichev, V. A.
OPLG: Leningrad State University im, A. A. Zhdanov,(Leningradakiygosudarstven-
nyy universitet
TITLE: Study of the energy structure of Al and Al203 by the method of ultralong
wave X-ray pectrosco y
SOURCE: Fizika tverdogo tela, v. 0, no. 10, 1966, 2892-2899
TOPIC TAGS: alurninum, aluminum oxide, spectroscopy, x ray spectroscopy,
ultralong wave x ray spectroscopy, absorption spectra, emission spectra,
crossover transition
ABSTRACT: A study was made of the emission and absorption spectra of aluminum
(Al) and aluminum oxide (A1203) within the ultra-soft region of x-ray radiation.
Al and Al 0 absorption spectra were found to have a sharply defined fine struc-
2 3
ture near the LII, III-!boundary of aluminum absorption. The emission band of
-Al in A1203has a two-hump shape,* In the ultrasoft region, this band is accompa-
nied by two secondary maxima at 45 and 50. 5 ev. The first appears to be the
Lq9rd 1/2
7~
M"ggz-
~a
,-,T ;gj,
L 09917-67
:-ACC INR:
AP6033549
result of an internal L, LjI,jjj transition of aluminum. The second is apparently
-the result of crossover transitions of 2s-electrons of oxygen to the 2p-level of
aluminum. Energy level diagrams are plotted for Al and A1203- In the proximity
o
4. the diagrams differ. Orig. art. has:
f 'he oxygen and aluminum atoms in A1203',
8 figures and I table. [Author's abstract]
SUB-CODE: 20/ SUBM DATE: 08Feb66/ ORIGREF: 011/ OTHREF: 0181
L 9915-66 E,
M T 14 n , M!, LAM.
AM226 7 SOURCE--d-6DE:
ACE NRI 005 33r
Y, Deceased Yershov, 0. A.; Zhukovaj 1. 1.,
AUVOR: I.- ~ ) ; Gavinov, Ye. P.i
_Eomichev. V. A.,
TITLE: Reflection of X.EalT with wavelengths from 23.6 to 190.3 Some remarks on
the operation of diffraction gratings
SOURCE: Optika i spektroskopiya, v. 19, no. ~,,~a965, 425-433
TOPIC TAGS: x ray diffractiono x ray, filter,~ 'x ray spectrum, diffraction grating
ABSTRACT: The authors measured the angular dependence of the reflection coefficient
for variovs substances, using the following monochromatic lines: OK (23.6 A),
9~' (31.4 A), CK (44 A), E~( (67 A), srMt (108.65 A) o Rbmt (128.66 A), Ba (164.6
A and CsNV_OII1 (19013 A'). The measurement methods were described byNYERTthors
elsewhere top spektr. v. 16, 3.10, 1963 and earlier). For lines shorter than
113 A the radiation was detected with a flow-through proportional counter filled with
pe was used.
methane; for longer vavelongths a Geig?r counter with argon-alcohol mixtp
The substances measured were F-1 lasW gold, titanium, and polystyrene./!2 The method
of preparing the reflectors was also described in the earlier papers. Polystyrene
and titanium reflectors are found to be capable of effectively filtering radiation
shorter than 50--200 A, depending on the angle of incidence. In the case of F-1
glass, a sharp fine structure is observed in the reflection coefficient at wave-
lengths 70--130 A. For titanium the fine structure appears at wavelengths shorter
U1DC1__537A53l
L 9915-66
ACC NRI AP5022667
than 30 A. and for polystyrene at wavelengths shorter than 45 A. Gold exhibits no
fine structure. The spectral dependences of the reflection coefficients show that
titanium = ;;,be used effectively as filters for radiation of wavelengths
shorter t at yerious angles of Incidence, and that polystyrene mirrors
can be used am-filters fuir;'radiation shorter than 50-180 A, depending on the angle
of incidenco. The maximum reflection coefficients in the first order of diffraction
have been calculated also for echelettes cut in F-1 glass and echelettes with gold
and titanium coatings, which were also studied by the authors earlier (Opt. I spektr.
v. 14, 285, 1963). Plots of the maximum reflection coefficient of the echelettes
(600 and 1200 lines/mm) vs. the angle make it possible to choose the optimum angles
of incidence and the angles of I *nclination of the echelette steps. The greatest
possible reflection coefficients are obtained in first order. Orig. art. has: 3
formulas and 1 table.
SUB CODEs 20/ SUBM DATEt Mhy&/ ORIG REF: 007/ OTH REFt 001
V
41
W(M)/Djp(t) Jjp(c) JD
1~ 18755-66
ACC NR: AP6003767 URCE CODE: UR/0181/66/008/001/0(
Sc )95/01U
iAUTHORS: Ukirakiy, (deceased); Brytov, 1. A.; Fomichev. Ir
'I ORG: Lentn6rad State UniveraLty_(Leningradskiy gosudarstvennyy
niversitet)
TITLE: New emission bands of Re; W, Ta Te Sb Pd~ M b T
Ti in the ultrasoft x-ray relgi-on of tEe-'n4p'te'J~um 2j IL_, and
SOURCE: Fizika tverdogo tela, v. 8, no. 1, 1966, 95-102
TOPIC TAGS., x ray emission, x ray diffraction study, spectral
line, line width, line shift, x ray spectroscopy
ABSTRACT: The purpose of the experiment was to obtain additional i
experimental data on the density of the electronic states in the i
i
.valence baed. The new lines were obtained in the spectral region
1
70 -- 450 A with the aid of a. diffraction-grating x-ray spectrometer.!
The use of effective detectors and reflecting mirrors to filter out
the radiation has made it possible to detect the new lines. The
1z
Card 1/2
L 18755-66
1 ACC NR: Ap6oo3767
pectrometer was described by one of the authors earlier (Lukirskiy,
!Izv. AN SSSR ser. fiz. v. 25, 913, ig6i). An Identification for the
lobserved emission bands is proposed and the widths of the levels
1participating in the transitions are determined. The shape of the
emission bands and the widths are not discussed in detail, In view
of the lack of data on the detector efficiency and on the spectral
dependence of the diffraction-grating reflection coefficient. The
i
lobserved shape or the emission line of W is compared qualitatively
I with the theoretical distribution of the energy density of the elee-
Itronic states of the 5d6s band. Further improvement in the results
I is expected when, the resolution of' the spectrometer Is increased
jand.when absorption spectra of the same elements become available
!for the investigated region of spectrum. The authors thank M. A.
!Rumsb,-and T. M. Zimkina for useful remarks. Orig. art. has: 8 fig a
iand 3 tabl9s.
ISUB CODE: 20/ SUBM DATE: 29Jun65/ ORIG REP: 007/ OTH REP: 007
I c,,,d 2/2-110,
ACC NRz AP6=7023
SOURCE CODE:
AUTHOR: (deceased) ; Pomichev, V. A. Brytov, 1. A.
ORG: none 16
TITLE: Absorption coefficients of nitrocelluloseland pplystyre, in the 8-410
region of the ultrasoft x-radiation.
SOURCE: Optika i spektroskopiya,, v. 20, no. 2, 1966, 366-368
TOPIC TAGS: absorption coefficient, polystyrene, nitrocellulose, radiation detector.,
x ray filter
ABSTRACT: This is a continuation of earlier work (Opt. i apektr. v. !7, 438, 19&)
on the efficiency of gas-filled radlation detectors. Whereas the absorlytion coeffi-
cients of the gas and vapor used in these detectors were measured earlier, the nitro-
cellulose used for the detector window was not investigated before. The measurement
procedure was the same as in the eaxlier work. The preparation of the transparent
-.,films is briefly described. Film close to optimal thickness for each wavelength
were used. The numerical values of the absorption coefficients are listed in a table
for the different wavelengths in the case of nitrocellulose and plotted in the case
of polystyrene. Xn the case of po3ystyrene, a considerable jump occurs in the ab-
sorption coefficient in the vicinity of the carbon line and it is noted that poly-
styrene can serve because of this ezomaly as an effective filter for ultrasoft x-
radiation. Orig. art. has: 1 figicrep 1 formulat and 1 table.
SUB CODEs. 20/ Sum DATE: 29juri65/ oRiG rw: oo3/ oTH REF: oo3
L Oh740-67 !MT(l) kTLQ/Kr1 IJP(c) JD
ACC NR. AP6024473 SOURCE CODE: UR/0181166/008/007/2104/2108
AUTHOR: Fanichev, (Deceased)
ORG: Leningrad State University im. A. A. Zhdanov Ueningradskiy gosudarstvemyy
universitelT
TI=: Fine structure of LII' I,, absorption spectrum, of aluminum
SOURCE: Fizika tverdogo tela, v. 8, no. 7, 19669 2104-2108
TOPIC TAGS: absorption spectrum, x ray spectrum, spectral fine structure, absorption
edge
ABSTRACT: The purpose of the investigation was to check on the accuracy of data ob-
tained by others,'in view of the experimental difficulties involved in investigations
of the ultrasDft - y region of the Epectrum. The fine structure was investigated
near the LIJ, III absorption edge WO A) witli-tbe aid of the bremsstrW-aung spectr=
of a tungsten anode, using apparatus described in various earlier papers by one of
the authors (Lukirskiy et al., Cpt. i spektr. v. 19, 800, 1965 and earlier). M-e
samples were prepared by evaporating aluminum in vacuum on a glass substrate coated
beforehand with KC1. The evaporated fiLn was then floated free on water. The results
have sbowa that the observed fluctuations in the absorption ooeffhbient on the short-
wave side of the absorption edge are typical of aluminum, and cannot be attributed to
the substrate as suggested by D. 11. Tamboulian and E. M. Pell (Phys. Rev. v. 83, 3196,
1951). On the long-wave side, no fine structure is observed in the absorption coef-
1/2
04740-67
A:cCWM--Akfi4-4-
ficient of alumintun, and it is therefore cmcluded that the results obtained by T.
Ifayasia. and T. Sagawa (Sci. Pap. Tbhoku Univ. no. 44, 1269 1960) are in error. Ovig.
art. has: 5 figures.
SUB CODE: 20/ SUBM DAM 14Dec65/ ORIG FEF: 005/ WH W: 006
Card 2/ 2
T, G,'I?.',h'I-67 i-I.T(l) ImI(c) i I-1/i D
Acc 'Wk~.ju,6o3o65) SOURU CODL: UIVOOW/66/169/oo6/i~ol;/l,~o6~
;,jr~j10; Zinilcina, T. M.; Pomicljoy,
Leningrad State Unive A. Zhdanov (Laningradakiy goaudarntvannyy
%;I-,ivcriit CA) " I
L the ultrasoft x
irq2.: Absorption spectrum of sulfur hexafluoride mray region
T
SOURCE: AN SSSR. Doklady, v. 169, no. 6, 1966, 13o4_13o6
TOPIC TAGS: sulfur compound, fluoride, x ray spectrum, fine structure, absorption co-
efficient, absorption edrc, photoionization, molecular atruct~rc
A-SMICT: The authors have obtained the absorption spectrx n of SF in h r gion of
I.he Ljj-jl:[ absorption edge. The purpose of the investigation was to explain the
'nature of the selective maxima in the region of the edge and their connection with
I .
t-ne eziergy structure of the molecule, and to obtain data supporting the theory of
!phlotoionization absorption and'the applicability of x-ray absorption laws in the
ultrasoft region. The absorption coefficients were investigated by a method described
in earlier papers (Izv. AN SSSR ser. fiz. v. 27, 324, 1963 and v. 28, 772, 1964). 7ne
!spectral range investigated was 41 - 73 A at a pressure 4-5 � 0-5 mm Hg (ensuring a
!I 30~10' transmission). The results are presented in the' form of a plot of the absorption
coefficients vs. energy in the range 170 - 3W ey) and a larger-scale portion of the
fine structure (first three absorption bands) between 170 and 205 ev. The distances
between the maxima are close to the spin-doublet splitting of the L:Ej and L11I levels
Card. 1/2 UDC: 535-343
_L 09347-67
ACC NRt AP6030653
of sulfur. The absorption spectma has an unusual form, anomalous intensity ratios,
!and no clear-cut absorption edge, but the lack of experimental data on the uv absorp-
i tion spectrum and of theoretical calculations make the interpretation of the results
difficult. It is quite likely that the unusual spectrum can be attributed not only -
to the energy structure of the molecule but also to the character of the photoioniza-
tion absorption, since the x-ray absorption regularities obtained by using hydrogen-
like wave functions do not hold for ultrasoft x rays. This report was presented by
;A. A. Lebedev 30 November 1965. Orig. art. has: 2 figures.
'SUB CODE: 20/ SUBM DATE: 25Ndv65/ oRiG REF: oo3/ oTH REF: oo4
Card
ACC NR, AP7001405'- )----'SOURCE- CODE: UR/0413/66/000/021/0107/0108
IWENMR. Lashkov, K. A.; Klimova, T. N.; Fomichev, V. A.; Matsyuk, L. N. Kolobkov,
Yu. M.
ORG: none
TITLE: - Device for heat-pulse welding of polymer films. Class 39, No. 187991
SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 21, 1966.
.107-108
TOPIC TAGS: polymer film, polymer welding
c0
ABSTRACT: An Author Certificate has been issued for a device for heat-pulse welding
of polymer films. The device consists of two insulation blocks, heating elements
Fig. 1.
1 - Bottom block; 2 s-shaped support; 3- top block.
Card 1/2 UDC: 621.791.46.052.2.037
;kC-_N_R': A-P-700-0-1-4-0-5
in the form of metal strips with copper inserts, and a support. To obtain closed-
,contour articles with a curvilinear lap weld, the blocks have a surface curvature
corresponding to that of the articles to be welded, and the bottom block is
mounted on an a-shaped support. Orig. art. has: 1 figure. IBOI
SUB, CODE: 11, 13/ SUBM DATE. 15Au&63/ ATD PRESS. 5109
Card 2/2
_-AP603627- - d1_-_-__,__
ACC Nit, S URCE CODE: UR70RWr6_6_fG__ff6_ft_[0
AUTHOR: Karpov, R. G. i ForTAchev, V. A.
ORG; none
TITLE: Controllable frequency divider with storage-type counter
SOURCE: Radiotakhnika, v. 21, no. 11, 1966, 69-71
TOPIC TAGS: frequency divider, pulse counter
ABSTRACT: A divider is considered which turns a pulse packet of frequency F. (t)
simulating a physical quantity into another pulse packet of frequency: 'F, (1) - F, ([)In-.
here, n a n(t) Is a stepwise adjustable division ratio of a
storage-type counter (see figure). The circuit includes a
4 "V 'I, blocking oscillator turned off by a voltage drop across RJ .
The turn-on level can be adjusted by control voltage U,
applied to the grid circuit of the cathode follower. Fxperi-
X.L Al mental plots of division ratio vs. control voltage are shown.'
Orig. art. has: 3 figures and 6 formulas.
3UB':~CODE: 09 SUBM DATE; ','IODac65 ORIG REF: 002
JA
Ciied UDGAZI. 374.4
.FOMICHF-V, Vb,- BULIVAMR, E.Z., red.; VOLKOVA, A.N., redAzd-va;
. GLUKHOYEDOVA, G.A., takhn. red.
(Penmian Rugosa In tha Far East] Permskie ko*lly Rugosa
Dallnego Vostoka. Moskva, Goageolizdat, 1953. 70 p.
(MIRA 160)
(Soviet Far East-Tetracorailk)
- -1 . ~erauhj-y Central Guological and Fr--
L2-~~ 00pecting Institute, Leningrad.)
A U36R registrant of the 17th International Geological Uongre-,s held in Moscow in
1937.
SO: Report of The 17th Inter. Geol. Cong., 1937.
FORICEV, T. D.
?A 43/43T25
Dorally Rugosa I Stratierafiya Sredne-I Verkhnekamet-uiougolInykh I Periaskikh
Otlozheni,v Donutskogo Basseyna (Rugo3a corals ind Stratigraukv of' 'the 11-liddle
and uppur lAtuidnous Goal and Permian Depogiti of the Jwiet, dasin) ilwkva,
Oosgeollzdat, 1)53.
6?1 p. Magr.'30, iablos.
I'Literaturall: p. 606-613.
524N/5
622.4
.F6
-'F.. I
IA
49 six
q Wfif
04C. 1-h gas .2
-Y.,-,
--IOMIC ,:,GCRSKrY, I.I., red.; SHWOV, V.V., red.izd-va,-,
2MLM-4--V-n
BORISOV2 A.S.t tekhn. red.
[Rugosa and the stratigraphy of-the Middle and Upper
Carboniferous and Permian sedimentsin the Donets Basin) Ko-
rally Rugosa i stratigraftia sredne i v~rkbnekawnnougollnykh i
permakikh otlozbenii Donetskogo basseina. Moskva, GoBAzd-vo
geol. lit-ry, 1953. 621 p. _ At3i\s. 90 p. --.QUUj5z2)
1. Chlen4orrespondent Akademii nauk SWR (for Gorskiy).
(Donets, Basin-Geology, Stratigraphic)
(Donets Baoin-Rugosa)
V. D.
Z;V I
Me Committee an Stalin Prizes (of the Council of Ministers WO) in the fields of
science and Inventions swounoes that the foUmIng scientific workap poyaar scien-
tific books,, and textbooks have been submitted for competition for Stalin Prizes for
the years 1952 and 1953. (Sovetskess, jkmov,, No. 22-4o,, 20 Fab - 3 Apr 1954)
Now
Fomichev, ". D.
Title of Work
II[Rugosal Corals and the
Stratigrapl%y of the Mid-
dle and Upper Carbon-
iferous and Formian Strata
of the Donets Basin"
Nominated by
MinistrI of GeologY and Con-
servation of Kineral Re-
sources USSR
80: w-30&*, T JUY 195k
-j-
i__ V, V.Y
AKSARIN,A.Y.; ANANITU,A.P.; BIWEDIKTOYA,R.H.; GORBOOV.H.G.; GRATSIAHOYA.
R.T.; TJIGCROVAL.I.; IVAIIITA,V.A..- KRAYUSXLTA,L.N.,- KRA OPIONVA.
P.3.; LIBIM.I.V.; LCMOVITSKAYA,M.P.,- POLITAYEVA,O.K.; ROGOZIII,L.A.;
RADGHMO,G.P.; HZHCUSNITSKAYA,H.A.; SIVOV,A.G.; FCO(jQjLX&qp; KHAL-
FINA,V.K.; UIALFIR,L.L.; CHEUITSHUAs5.V.; NI:KITDIA,V.N., redaktor;
= OVA,O.A,, tekhutcheekly reduktor
[Atlas of leading forms of fossils in the faunA and flora of Western
Siberia) Atlas rukoyodiashchikh form iskopasmykh fauny i flory zapad-
noi sibiri. Pod red. L.L.Khalfina. Moskva, Goo. nauchno-t-,~khn.lzd-vo
lit-ry po geologii I okhrane nedr, Vol.l. 1955. 498 p. Vol.2. 1955.
318 P. (Microfilm] (MIRA 9:3)
1. Tomek. Politakhnicheskiy institut Imeni Kirova.
(Siberia, Western--Paleontology)
FOMICHKV, V.D.
Raw data on the stratigraphy of Salair Ridge. Inform.obor.VSEGEI
no-3:43-45 156. (MI2A 10:1)
(Salair Ridge--Geology, Stratigraphic)
NBIAMMHNM, V*S.; SAES, V.N.; SP17HAR Y, T.N.; POKICHNV, V.D.
laterdeparibmeat&l meotlag on dovelopiag unified stratigraphle
systems for Alberls. Inform. sbor. VMMI no.401-37 156
(ftberia-Geoloff, Stratigraphic) inu loto
'P`4R
SPIZHARSKIY, T.N., red.; BODYLEVSKIY, V.I., red.; BOCH, S.G., red.; YASIUENKO,
r~d-.;
V.K.9
DODIN, A.L., red.; DOHRACHEV, S.M., red.; KRASNOV.-I.1,0
red.; HELESHCHONKO, Y.S., red.; KNUM, V.V., red.; HIKIFOROTA, 0.1.,
red.; OBRUCHEV, S.V., red.; RZI[ONSITITSKAYA, M.A., red.; ROSTOVTSBT,
N.N mcde; SAKS, T.N., red.; SARYCHEVA, T.G., red.; FOHICHEV9 V.D.,
~,red CHMWYSMVA, N.-Ye., red.; YAKOVLNV, S.A., red.;-SKVORFSOT-,-T.-P.-,
red.izd-va; PZNIKOVA, S.A., tekhn.red.
(Decisions of the Interdepartmental Conference on Making unified
Stratigraphic Charts of Siberia) Reshenila Hezhvedometvannogo sove-
shchanlia po razrabotke unifitstrovannykh stratigraficheskikh ukhem
Sibiri. Moskva, Gos.nauohno-tekhn.izd-vo lit-ry po gaol. i okhrane
nedr, 1959. 91 P. (NDU 12:9)
1. Meshvodomstvennoye soveshohnniye po r82rabotke unifitairovennykh
stratigrafichaskikh ekhem Sibiri, Tmeningrad, 1956.
(Siberia-Geology, Strstigraphic)
Boundary between the Carboniferous and Permian systems and
the Artemovsk complex of sediments. Say. gaol. 3 npp. 11:94-108
N 16o. (MIRA 13:12)
1, Tsesoyuzuyy naueboo-Iseledovatel'shy geologicheshy hetitut.
(Geology, Stratigraphic)
FOMICHEV, V.D., starshly nauchnyy sotrudnik; ALEKSEYEVA, L.E., geolog;
-----------------SOKOLOVSKAYA, Ye.Ya., red.izd-,.va; IUNOVA, A.G., tekhn.red.
[Outline of the geology of the Salair Ridge] Geologicheskii
ocher)r Salaira. Moskva, Gos.nauchno-tekhn. izd-vo lit-ry po
geol. i okhrane nedr, 1961. 201 p. 7 plates. (Leningrad.
Vsesoiuznyi geologicheskii institut. Trudy, vol.63.). (MW 15:5)
1. Vsesoyuznyy nauchno-isoledovatel'skiy geologicheskiy institut.
(Salair Ridge-Geology)
IVANOVSKIY, 8,A,, dotisenti FOMIGHK7, VaTep vaterinamyy vrach
Problemm in the methodology of X-ray photometryo Vaterinariia
38 no.815low57 Ag 161 (MIM 18:1)
1, Bashkirskiy ssl'skckhozy&ystve=yy institut.
-IQKCHEV, V. F. (Veterinary Doctor, Chair of Clinical Diagnosis and Therapy,
Bashkir Agricultural Institute), (Abstracted by V. A. ALIKAYEV)
"Method of staining animal blood smears."
Veterinariya, val. 39, no. 2, February 1962 pp. 82
VASILVYEV, S.F.; MOSIN, A.M.; LAPIDES, N.A.; Prinimali uchastiye: mr9REN140,
K.L.; OSTROVSKAYA, LeVe; ~OMICHEV, V F * GUBBOTINA, G.V.; SHVEDOVA,
L.M.
Oxidative pyrolysis of lower hydrocarbons. 1[him.prom. no./+:238-243
Ap 161. (MIRA 14:4)
1. Institut goryuchikh iskopayemych AN SSSR.
(Hydrocarbons) (Oxidation)
FWICHEV, V.G.
Study of bipolar elootrocles. Trudy LTI no-46:36-48 158,
(MIRA 14:4)
(Elootrodeo) (Faeotrochemistry)
-ip-,~ 'Ig
.5-1310 7764o
sov/8o-33-2-15/52
AUTHORSt Volova, Ye. D., Makolmova, 1. N., Mashovets, v. P., and
Fomichev, V. G.
TITLE: Electrolytic Preparation of Thallium Amalgam for Low-
Temperature Thermometers
PERIODICALt Zhurnal rikladnoy khimii, 1960, Vol 33, Nr 2, pp
349-354 MSR)
AIBSTRACTz Electrolytic preparation of thallium amalgam was
studied to determine optimum conditions for the
process. The materials used werei purIfled and
vacuum-di3tilled mercury (and brand P-2 mercury);
thallium. sulfate of compositioni Tl SO 99.9%-Fe,
0.001%; Cu,0.005%; water insoluble Npu~i'ties 6.01%,
impurities precipitable with NH2Of' 0.01%, those
not precipitable with (NHI,)2S 0.01%; and metallic
Card 1/8 thallium (for preparation of amalgani by direct
Electro-lytic Preparation of Thallium 1~611
Amalgam for Low-Temperature. Thermometers b~190-33-2-15/52
v
di.,;,iolution of T1 in mercury) containing T1 99.8%;
Zn,o.oo4%,. Cd,0.02%; Cu,0.00b%; Pb,0.005%; a'~d Fe,
0.001%. Figure 1. shows the cross section of the
electrolyzer. I I
1:-6j. I
Card 2/8 See Card 3/8 for caption.
Electrblytic Freparation of Thallium 7764o
Amalgam for Low-Temperature Thermometers SOV/80-33-2-15/52
Caption to Fig. 1.
Fig. 1. Cross section of the electrolyzer: (1)
anode; (2) pressed fiberglass membrane; (3)
flowing mercury cathode- (4) the electrolyte- (5)
outlet from cathodej ~6~ platinum contact; (7)) Inlet'
for the electrolyte; 8 electrolyte drain; (9)
inlet for the mercuryj (10) amalgam drain.
Content of thallium in amalgam was determined by
potentiometric titration with 0.01 N KBrO 3 of
0.2-0.5 g amalgam samples dissolved in dilute Sul-
furic acid. Results obtained by the use of a
platinum wire anode (with a surface area of 2 .5 cm2)
were compared with the results with a lead anode
(a perforated horizontal plate of - 30 em 2 surface).
Cathodes with an area of 5.7 and 30 cm 2 in the first
Card 3/8 case, and 30 cm 2 in the second were used. In the
El~ectrolytic Preparal.Lon of Thallium 7764o
Amalgam for Low-Tempevature Thermometers sov/8o-33-2-15/52
cau(4 of platinum anode 95-100% thallitun yield based on
cul-ront weve reached at all investigated temperatures
(20-1150), cathodic current densities (12-50 ma/cm2 ),
aclditle,-, oV Initial solution (0-001 to 1.33 g-equiv/1)
and flowrate3, w, of the solution from w theoret
(11, 1/1,1110 to 5 Wtheoret at the optimum composition
of the electrolyte (hIgh Tl+ concentration and low
acidity). wtheoret was calculated from T1 concentration
and current, takinZ complete T1 extraction and yield
based on current as 100%. FiTure 1 shows that the
degree of thallium utilization in amalgam) is inversely
proportional to the flowrate of the solution.
Card 418
WE
Electrolytic Preparation of Thallium
Amalgam for Low-Temperature Thermometers
77640
SOV/80-33-2-15/52
Fig. 2. Degree of thallium utilization
as a function of solution floNrrate; (13)
Card 5/8 Wtheoretical in electrolysis with a
(in %)t (A)
--wactual/
platinum anode.
Electrolytic Preparation of Thallium 7764o
Amalgam for Low-Temperature Tnermometers sov/8o-33-2-15/52
The output is lowered with decreasing thallium,
concentration(by lowering concentration of Ti from
40.5 to 8.5 9/1, the yield ba:3ed on current dropped
from 98.0 to 611.5% and degree of thalliwn utilization
from 86.0 to 50.2%) and with increasing acidity (at
Z_f1__7 1.33 g-equiv/1 compared to the optimum --e, 0.01
g-equv/1 the yield dropped to 70.6%). Experiments
with a lead anode show that tW process gives lower
outputo than with platinum anode, is accompanied by
thallIum oxidation to T1 0 and Is more sensitive to
changes In temperature(Rs~ in temperature increases
thallIum yield and utilizaton and decreases oxidation),
current density (increase of current density raises
T1 yield and utilization somewhat with a maximum at
50 ma. /cm2; a subsequent decrease In yield is
probably caused by increasing evolution cC*hydrogen at
the cathode) and flowrate (increasing flowrate some-
what decreases oxidation, Increases Tl yield and
Card 6/8 decreases degree of utilization). unfavorable renits
Electrolytic Preparation of' Thallium 7764o
Amalgam for Low-Temperature Thermometer.,; SOV/80-33-2-15/52
obtained by the use of lead anode are caused by its
large surface area and high overvoltage. Experiments
on electrolysis with a smaller lead anode resulted
In overheating of electrolyte anddecomposition of anode.
On the basis of experimental results the authors
recommend the use of a platinum anode with a small
surface area. Optimum conditionst the electrolyte
containing 40.5 g/1 of T1+ and ~~ 0.01 g-equiv/~ of free
S08;mtemperature 20-400; cathodic current density
3Y5 a/cm2j and the flowrate of the solution 1.02-
1.05 %~gget' In electrolysis on the lead anode
temper f 60-650and current density of 50-70
ma- /cm2 should be used. Preparation of thalliurn
amalgam by dissolving thallium in mercury (at room
temperature, under glycerin or water) is a simpler
process than electrolysis, but the amalgam prepared by
the latter process is supposed to be of greater purity.
The,amalgams prepared by both processes have been
submitted for tests in low-temperature thermometers
Card 7/ 8 to ascertain the advantages of the electrolysis amalgam.
'. 1, __
C
X~
Electroly'l-ic Preparation of Thallium
Amalgam for, Low-TeinpeMtUre
ASSOCIATIONt
SUBMITTED:
776110
SOV/80-33-2-15/52
There are 5 figures; 1 table and 13 references
3 Soviet, 5 German, I U.K., it U.S. Abstracter's
Notei are 12 references listed in the article
but one ot' thein was broken down into two. The
U. K. and U.S. references are: D. Mae-Intosh, F. M.
Johnson, J. Am. Chem. Soc., 34, 941 (1910); J.
Eqrenreich, Instruments & Automation, 27, 1070
(1954)) F. W. Richards, C. Smith, J. Am. Chem. Soc.,
44, 524 (1922), 45, 1455 (1923); F. Sin.ach, J. Indian.
Chem. Soc., 13, 717 (1936); F. W. Richards, F. Daniels,
J. Am. Chem. Soc., 111, 1732 (1919).
Leningrad Lensovet Technological Institute
(Liningradskiy tekhnologicheskiy institut imeni
Lensoveta)
February 25, 1959
Card 8/8
5/076/60/054/008/026/059/XX
3015/BO63
AUTHORS: Mashovets, V. P. and Fom4chev V G
TITLEj Study of a Oylindrioal and & Spherical Bipolar Electrode
PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 8,
pp. 1795 - 1801
TEXTs Many commercial electrolyzers have conductive parts as bipolar
interelectrodes, such as metallic walls of cells, metallic grid
diaphragms, valves, and metal grains or coal particles in electrolytes
used for fusion electrolysis. The effect of electrode polarization and
polarizability upon the current distribution on cylindrical and
spherical bipolar electrodes has now been studied. A method is given for
the calculation of the current flowing through a cylindrical or spherical
electrode which is placed in a uniform electric field. It was assumed that
the polarization was equivalent to the additional resistance which was
uniformly distributed in the bipolar electrode. Calculations made for the
current density distribution on the cylindrical electrode were experi-
mentally verified. Various electrolytes, such as copper and nickel-sulfate
Card 1/2
Study of a Cylindrical and a Spherical Bipolar S/076/60/034/008/0t-6/039/XX
Electrode BO15/BO63
solutions, sulfuric acid, and boric acid, were examined by means of a
cylindrical or spherical copper or nickel electrode. The experimental
values obtained from the copper electrode were in good agreement with the
calculated values, while agreement was less good with the highly
polarizable nickel electrode. The participation of a bipolar electrode in
the current density distribution depends on three factorst 1) resistivity
of the solution; 2) cathodic and anodic polarization; and 3) polarizability
and dimensions of the bipolar electrode. There are 7 figures, 3 tables,
and 7 Soviet references.
ASSOCIATION: Leningradakiy tekhnologicheakiy institut im. Lensoveta
(Leningrad Technological Institute imeni_Lensovet)
SUBMITTED: November 21, 1958
Card 2/2
4
N
MASHOVETSt V.P~! FOHICHEVo V.0,
Current dintribution in electrochemical oysteme vith a bipolar
electrode. Zhur. fiz. khim. 34 no. 3-1:2587-2595 N 160.
(MIM 14:3.)
1. Leningradokiy tekhnologicheakiy institut im. Lensoveta.
(Electrodes) (Electric currents)
I FDMICHEVIO V.G.; MASHOVETS) V.P. (Leningrad)
System with bipolar electrodes in the form of a complex of
circular cylinders* ZImr, fiz. khim. 35 no. 4:803408 Ap 161.
(MIRA 3J.: 5)
1. LonirgradBkiy tekhnologicheakiy institut im. Lensoveta.
(Polarization (Electricity))
~- FOMICHEV, V.I., gornyy insh.
Draining out of metbane from stoped out areas. Ugoll Ukr. 5 no.l:
36-37 -Ta '61. (Mru 14: 1)
(Coal mines and mining-Safety measureo)
(mine games)
SEREDENKO, M.M.. kand.ekon.nauk; KUGUSIIEVp M.F. biuhushev, M.F.1;
PRAVDIN: M.V.- F0MJg_HKV4-3t.I., ALEKSANDROVA, V.P.~, GORODETSKIY,
N.I. (Horodets DYATLOV, T.I.-, ULITA, M.S. [Kalyta,
M.S 11 DARAGAN9 M.V. Darahany M.V.,]; RADIU7 Tu.M.; VOROBIYEVAp
K.T: tVorobyovaq,K.T 1; LLSTIVKL? N.N.; STARODUBSKIYI R.D.
[Starodubalkyi, R.D.i; YATSENKO, P.F.,- MUROMTSEVA, G.M.
[Huromtsevap HJQ; RASNER9 S.I.; CHEMIYAKv K.1.5 KOBILYAKGVt
I.I. (Kobyllakmv I.I b ALEKSANDROVA, V.D.. kand.ekon-.3m.mauk,
otv.red.; DDUDYUK9 V:F. (DemWdiuk, V.F.,j!- red..-, LIBERM, T.R.9
tekhn.red.
[Ways of increasing profits in metallurgle-LI industrIes] Shliakby
pidv,yshchennia rentabellnosti metalurgilWkja pidpryiemstv. Kyivt
Vyd-vo Akad.nauk URSR, 1961. 93 p. (MIRA 34:6)
I., Akademiya nauk USSRv Kiyev. Institut okonemiki. 2. Institut
ekonomiki AN USSR (for Seredonko, V.P.Aleksandrava, K&Utav
Daraganp Radina). 3. Dnepropetrovskiy khIDL'ko--+.ekhnologicheskiy
institut, (for Gorodetskiyv Dyatlov). 4. Dneprodzerzhinskiy
metallurgicheskiy institut (for Kobilyakov).
(Dnepropetrovsk Province-Steel industr7--Costs)
-J~~o ~L -N-01m
iA
KCMOVP V.Bl). YOKICHEV, VII,
URevemne8s of g4s escape in mine sections. Zap. LGI 46 no.1:6-3-1
162a (MIRA 16:6)
(mine gases)
SPIZHARSKIY, T.11.. red;; TOLSTIKHDIA, M.A., red.; BODYLEVSKIY, V.I., red.;
BOCH, S.G., r d.[deceased]: VASILENKO, V.K., red.; DODIN, A.L., red.;
DOHRACHN, S.M., red.; KRASKOV, I.I., red.; MELESHCH&KO, V.8, 'red.;
MIUM, V.V., red.; HIKIIWOVA, 0.1., red.; OBRUGHEV, S.V., redo;
RZHONSNITSKAYA, M.A., red.; ROSTOVTSEV, N.H., red; SAKS, T.N., red.;
SARYCfWA, T.G., red..; red; CHNWSHEVA, N.Ye., red.;
YAKOVLLY, S.A., red.; RAGINA, G.M., vedushchiy rod.; YASHCHURZHINSXAYA.
A.B., takhn.red.
[Proceeding of the Interdepartmental Conference on the Development
of A Unified System'for the Stratigraphy of Siberia; reports on the
stratigraphy of Mesozoic and Gainozoic deposits] Trudy Mezhvedometvan-
nogo soveshchaniia po razrabotke unifitsirovannykh stratigraficheakikh
ekhem Sibiri; doklady po stratigrafii mezozoiskikh i kainosoiskikh ot-
lozhenii. Leningrad, Goo.nauchno-tekha.izd-vo neft. i gorno-toplivnoi
lit-ry, Leningr. otd-nie, 1957. 575 P. (MIRA 11:6)
1. Kezhvedomstvemoye soveshchaniye po razrabotke unifitairovannykh
stratigrafichookikh ekhem Sibirie Leningrad, 1956. 2. Voesoyuznyy
geologicheskiy nauchno-issledovatellskiy institut (for Spizharqkiy,
Tolatikhins, Boch, Dodin, Krasnov. Meleshchen:io, Nikiforove, Rostov-
toev, Fomichev, Chernysheva, Yakovlev). 3. Leningradskiy gornyy insti-
tut (for Bodylevskiy), 4, Vseooyuznyy neftyanoy nauchno-isaledovatell-
skiy goologo-razvedochnyy institut (for Vasilenko Domracbev). 5. Geolo-
gicheskiy institut Akademil nauk SSSR (for Menner~. 6. laboratoriya
dokembriya Akedemli nauk SSSR (for Obruchev). 7. Institut geologii
Arktiki (for Saks). 8. Paleontologicheskly institut Akademii nauk
SSSR (for Sarycheva)
(Siberia--Geology, Stratigraphic)
BRAZHNIK, Viktoriya Ivanovna; MIKELADZE, Pavel Vyacheslavovich;
VOM TCRFV -- VA alliv Ivarnwoo 'USPENSKIY, V.V., kand. ekon.
f K.L., "d.j MIKHEYEVA, A.A.,
tekh~. red.
(Planning and financing capital construction; practice of
the Dnepropetrovsk Economic Council] Planirovanie i fine&
sirovanie kapitallnogo stroitel'stva; opyt Dnepropetrovskgo
sovnarkhoza. Moskva, Gosstroiisdat, 1963. 76 p.
(MIRA 160)
(Dnepropetrovsk Province-Construction industry-Finance)
, (0-:.""l"ly lVanciduh; F-01-INW-Arl . H.Lor lvarovlch;
FIG 1; )Yc-.i,. yrc-.1 . ---l- - --- ,
[Usc 01, nynthotlc materialo in Induatt7] ;llA(Alctaj,!kLfl
matovinly - v proiiWshl.ennost'. 1.',oskvii, lzd-vo "Znarlio,"
19 64 . 3.1 1). (No-joe v zhizni, naiike, tokhnike. III
Xkonomlka, no-3.5) Wfllb~ -17:8)
KULKIA5REV9 NoT., Mad. geologo-In ralog. naU-~ FOMIGHEV, V.I.
Role of dialDcations with a break in continuity in ths formation
of Iceland spar deposits In the Sayak sy-noline. Vast. AN Kazakh.
SSR 21 no.9368..73 5 165. (MIRA 1819)
414
,;Lructural cor-tr(A oil n;ine-al zntll (,n. il Ll--
All Kazakh. S>Sli 3;-.v geol. 22 ljo.
-I- Inst-Iltut geologicheskikh nrulk
A ~7
ri n
7 Ll
)t5156
S/181/63/005/002/046/051
B102/B186
AUTHORS: Bresler, S. Ye., Kazbekov, E. N., Fomichev,_Y~. N., Sech, Fe,
and Smeytek, P.
TITLE: Macroradicals in solid polymers
PERIODICALs Fizika tverdogo tela, v. 5, no. 2, 1963, 675 682
TEXT: The destruction of' macr.opolymers is studied in a special vacuum
manipulator at liquid-nitrogen temperature. The investigations were made
using an e.p.r. spectrometer with rf magnetic-field modulation. The diphe-.
nyl pierylhydrazyl spectrum served as reference standard. The poly'M re in-'
vestigated (
olymethyl methacrylate M, polystyrene (II), polyvi0Yr11'1*
acetate (III ) were, producod by thermal polymerization. The kinetics of
5
the disintegration of the macroradicals in solid polymers, formed by
mechanical destruction, is studied in great detail. The macroradicals ob-
tained in vacuor vanish very slowly; this process whose rate constants are
16 29000+2000
CM3/mole-sect
- 10 exp
given by K
I
RT
Card 113
Macroradicale in solid polymers
S/181/63/005/002/046/051
B102/B186
18 24000*200 3/mole-seci K 107 23000*200 3'
KII - 10 exp (_ RT 0) cm III exp (_ RT 0)csnXnd1s-v~qJ
takes several hours. The macroradical separation is due to disruption of
hydrogen molecules from the polymer chains; a migration mechanism is assumed
for the radical state being effective from chain to chain. The macro-
radical disrupture, is strongly stimulated by oxygen due to radical oxida
tion. The destruction process by 0 2 is accelerated to about 100 times th;
rate under normal conditions. The kinetic constants of the macroradical
disrupture in the presence of oxygen were measured and their temperature
dependence was determined. If the oxygen is eliminated from the ampoules
after complete radical oxidation (only ROO-present) the rate of macroradi-.
"cal destruction is decreased by a factor of 5 to 10. Also this effect
speaks in favor of the hydrogen migration suggested.. The regeneration of
the initial carbon radicals of polymethyl-methacrylate from the hydroxides
on oxygen evacuation occurs more rapidly at OOC and leads to.s. 50%6 restora-
tion. It proved impossible to explain radical destruction.by diffusion pro-
cessesl the only mechani8m possible seems to be the radical state migration
through subsequent disrupture of hydrogen atoms by the polymer chain radi-
cals. There are 4 figures.
Cax& -9/x
M vftlnztAt~~
5/181/63/005/002/046/051
Macroradicals in solid polymers B102/B186
ASSOCIATIONt Institut vysokomolokulyarnykh soyedineniy AN BSSR, Deningrad
(Institute of High-molecular Compounds AS USSR. Leningrad)
SUBMITTEDs October 1, 1962
Card 3/3
pw:4,
BUSLERp S.Yo,; KAZBEKOV, E.N.; FOMICHEVI V.N.
Roactivity of aikaroradicalma Kin.i kat. 6 no.5:820-827 84 165.
(MIRA 18gli)
1, Institut vyookomolskulyarnykh soyedinaniy AN SSSR.
FOMICHEV, V.P., kand. tekhn. nauk; ARZHANOVSKOV, A.I., inzh.;
."ZHEREBKOV, I.V., red.
[Resistance of hard and frozen ground to cutting] Soprotiv-
lenie rezaniiu tverdykh i merzlykh gruntov. Rostov-na-Donu,
1962. 38 P. (MIRA 17:4)
1. Akademiya stroitallstva i arkhitektury SSSR. Institut po
stroitellstvu, Rostov-on-Don.
FOMIChT.Vp V.P. (Kilv)
Experlmentnl 3tu6i, of the relation between the wIrv-rcT;o stretching
force and feedin.- and cutting speeds in conl cutters [with summaries
in Russian and :E-v-,!I9h]. Prykl.makY,. I no.2:196-20! 157. OILRA !0:9)
1. Institut gir!,.Ichoi spravi AN URSR.
(cool mining mnehinery)
N) 10- 1-1 C~ V, V
AUTHOR i Fomichov, V,P. 21-4-5/24
TITLEt Effect of Feeding and Cutting Speeds on the Force for Feeding
the Tool in Coal Cutters (Vplyv shvydkost*y podachi i rizannya
no sylu podachi rizteya vrubovykh mashys)
PERIODICALt Dopovidi Akadonii Nauk Ukrainalkoi RSR, 1957, #4, PP 339-342
(USSR)
ABSTRACT: The origination process of a force for feeding coal cuttor tools
and its dependence on the speeds of food and cutting are inves-
tigated for the can* the cutting tool has the rounded edge and
wear face surface parallel to the cutting velocity. -
A formula was derived expressing the force necessary for feed-
ing the tools in coal cutterep which takes into account compres-
sion of the coal cut and its abrasion.
Results of experimental investigations in the laboratory have
shown that theoretical values given by this formula describe
adequately observational data.
Card 1/2 The article contains 1 figure and cites 4 Slavic references.
ZI-4-5/24
TITLE: Effect of Feeding and Cutting Speeds on the Force for Feeding
the Tool in Coal Cutt 0rs (Vplyv shvydkostay podachi i rizannya
na sylu podachi rizteya Yrubovykh mashyn)
INSTITUTIONt Institute of Mining Engineering of the Ukrainian Academy of
Sciences
PRESENTED BTaSavin, H.M. (Russian equivalent Sevin, G.N.), Member of the
Ukrainian Academy of Sciences.
SUBMITTED& 20 February 1957
AVAILABLEz At the Library of Congress
Card 2/2
furnacc
F07;41011EV, V. P6, CwA T h Sai -- (diss) "#Sttuiy of the Dep4ond -nf-, C.,
tat&
a Force o- and Cable Tension -gram the Speed of
of tiv
and Cutting in Cutting I'lachines", Kiev, 1958. 15 pp. with
figse (Acads Scis UkSSR. Institute of Xininr, Engineerinr irmeni
M. Y. Fedorov). 120 copies. (KL, 34-58, 100)
/1
FOMICHEV, Ve.P~,, inshe.
Iffect of rope length, pulse number and the average rate of
feed on the d7namic surge in rope tension and 'power consumption
in cutting mchinsis IS'v, vys'. ucheb. zav.- gor. shur'. n0.12-.
70-78 158. 12:8)
i.Tullskiy gornyy institut.
(Coal mining machiner.0
M
FOHIGFW, V.P., kand.tekhn.nauk
Affect of dust clogging of the cutting chain on cutter per-
formance. Ixv.vys.uch~b.sav.; gor.shur. no-7:77-81 '59.
(MM l3r4)
1. Thl'skiy gorrqy institut. Rakomendovana seminarom takhai-
cheskikh kafedr.
(Coal mining =chinory)
FOMICHEV, V.P., kand,takhn.nauk
Specific wear of cutting machine edges. Izv.vys.ucheb.zav.; gor.
zhur. uo.8:45-48 '59. (MIRA 13:5)
1. Tullskly gornyy institut. Rokomendovann kafedroy gornykh mashin.
(Coal mining machinery)
-YONIGM., Tasiliy Petrovich; ASTMOT, A.T.. otv.red.; SUKHIIIIRA, N.D.,
tekhn,rede; GAMMA, T.T.. tekhn.red.
[Calculation of the load on cutting machines] Raschet nagrazok
ne vrabovye mashiny. Koskvs, Gos.nsuchno-tekhn.izd-vo lit-ry po
gornomu delu, 1961. 146 p. (KIRA 14:4)
(Goal mining machinery)
Ip
3/1 28/62/000/008/00~/00,3
A004/A127
AUTHOR: Fomichev, V.P.
TITIS: Removing flue gases from arc and other furnaces
PERIODICAL% Liteynoye proizvodstvo, no. 8, 1962, 38
TEXT: The gases to be-removed from electric are furnaces and furnaces
operating on solid fuel contain a considerable amount of highly dispersed dust
which is difficult to collect. The most efficient way is by elec 'trofilteis, which,
however, is not expedient if the gas contains sulfur. More economical is a dust
collector with needle-shaped ionizer at the outlet of a centrifugal scrubber. The
large dust particles are removed in the centrifugal scrubber, while-the coagulation
and removal of fine fractions is effected in the aeration flow from the point of
the needle-shaped ionizer during the dark discharge. A brief description and
layout of such an Installation.are given. There art 2 figures.
Card 1/1
;As' NMEN
1, U.4
.50
FOMrMV V P kand.tekhn.nauk
Calculation of the loads and wear of the cutters of the ShBM
cutter-loader. Izv. vys. uchs zav,'; gore zhure 5 no,6s98-105
,62. (MM 15:9)
1. Novocherkasskiy prdena Trudovogo Krasnogo Znameni politakhni-
cheskiy institut imeni S.Ordzhonikidze. Rekomendovana, kafedroy
gornykh mashin i rudnichnogo transports, Novocherkasskogo poli-
tekhnicheskago instituta.
(Mining machinery) (Mechanical wear)
FOMICHL-it V.P., kand.tekhn-nauk
Calcalating the loads on cutter-loaders which cut off large chips.
Izvevysouchebazave; gor.zhur. 5 no.9.*65-72 162. ~ (MIRL 15:11)
1. Novocharkasokiy ordena, Trudovogo, Krasnogo Znameni, pol-itekhai-
cheakiy institut imeni S.Ordzhonikidze. Rekomendovana kafedroy
gornykh mashin i rudnichnogo transporta.
(Coal mining machinery)
T"
FOMICHEV,.V.P_.,,inzh.
Efficient layout for drawing air away from type 115 and 116
mixing runners. Vod. i san. tekh. no.7:26 Jl 162. (MRA 15:9)
(Factories-Heating and ventilation)